Hypokalemic periodic paralysis as first sign of thyrotoxicosis.

BACKGROUND
periodic paralysis related to hypokalemia is seldom reported in thyrotoxicosis, and it usually occurs in Asian males.


PATIENTS AND METHODS
Two Romanian (Caucasian) young patients presented with hypokalemic paralysis. TSH, FT4, TT3 was measured by immunochemiluminescence. Case report 1. Patient O.R, aged 19, presented marked asthenia and lower limbs paralysis, following high carbohydrate meal. He declared 10 kg weight loss on hypocaloric diet and mild sweating. Biochemical data revealed moderate hypokalemia (K+=2.6 mmol/L) and thyrotoxicosis (TSH<0.03 mIU/L, FT4=30 pmol/L, TT3=315 ng/dL). Case report 2. Patient T.A., aged 18, presented 2 episodes of weakness and flaccid paralysis, with hypokalemia, precipitated by effort, without any sign of thyrotoxicosis. Biochemical data revealed severe hypokalemia (K+=1.8 mmol/L) and thyrotoxicosis (TSH<0.03 mIU/L, FT4=24 pmol/L, TT3=190 ng/dL). Treatment with intravenous potassium, thereafter methimazole and propranolol were administered in both cases, with the maintenance of normal kalemia and thyrotoxicosis' control.


CONCLUSION
these 2 cases of hypokalemic periodic paralysis occurring in young Caucasian teenagers with mild thyrotoxicosis underlined the importance of thyroid screening in patients with symptomatic hypokalemia, even in the absence of symptoms and signs of thyrotoxicosis.


Introduction
Hypokalemia with acute paralysis is a medical emergency. Up to 43.3% of the patients with hypokalemic paralysis had a secondary cause, 16.6-32% showing thyrotoxic paralysis [1,2].

Patients and methods
Two young, non-consanguineous Caucasian patients (18 and 19 years) initially presented with periodic hypokalemic paralysis. They did not have Asian ancestors, or a familial history of periodic paralysis, or personal history of distal renal tubular acidosis, primary hyperaldosteronism or Bartter-like syndrome. Both patients denied diarrhea, diuretics, licorice or alcohol use.

Case reports
Case 1, O.R., male, aged 19, overweight (BMI=27.8 kg/m 2 ), presented with marked asthenia and lower limbs paralysis. The symptoms had abrupt onset in the morning, after a rich carbohydrate meal. The patient declared 10 kg weight loss on hypocaloric diet and mild sweating. Neurological exam showed symmetrical, lower limbs flaccid paresis.
Case 2, T. A., male, aged 18, presented with marked asthenia and quadriplegia with abrupt onset after an intensive physical effort. Neurological exam showed flaccid limbs paralysis. Severe hypokalemia (1.8 mmol/L) was present. Intravenous potassium supplements were administered with normalization of serum potassium levels. In the endocrine department, physical exam revealed small diffuse goiter without tachycardia, tremor or exophthalmia. Hormonal assessment revealed mild thyrotoxicosis (TSH<0.03 mIU/L, FT 4 =24 pmol/L, TT 3 =190 ng/dL) ( Table 1). After the restoration of normal serum potassium levels, renal potassium excretion was normal (51.8 mmoL/24 hours).
In both patients, thyroid ultrasound revealed hypoechoic, diffuse goiter; there were no signs of hypercortisolism and adrenal assessment was normal ( Table 1). Antithyroid drugs (Methimazole 30  20  10  5 mg/day) and non-selective β blockers (Propranolol 120  60  40  30 mg/day) treatment were administered in both patients, with long-term maintenance of normal serum potassium levels and progressive normalization of TSH and FT 4 levels ( Table 2). Antithyroid drugs' treatment duration was of 18 months. No recurrence of the paralysis has been noted during follow-up. To our knowledge, these cases are the first Romanian published cases of hypokalemic thyrotoxic paralysis so far.

Discussion
Both our patients are males. THPP had a higher predilection for men than for women [4]. The disease occurred especially in young adults [17].
In our patients, THPP occurred at night and early after awakening, respectively. Early morning paralysis was reported as the first manifestation of hyperthyroidism both in Asian men [18] and in Caucasians [19]. Precipitating factors included sleep at night, hot weather, upper respiratory tract infections, excessive physical activities [17], excessive alcohol intake [20], high carbohydrate intake [21].
Both our patients showed mild thyrotoxicosis. Many affected patients do not have obvious symptoms and signs of thyrotoxicosis [3,22].
Both patients showed sinus tachycardia, U waves, without ventricular arrhythmia on electrocardiogram (ECG). ECG manifestations in THPP were slightly different as compared with nonthyrotoxic periodic paralysis, at similar low K + levels: heart rate, PR interval, and QRS voltage were significantly higher [23]. Young patients with THPP complicated by acute hypercapnic respiratory failure and ventricular tachycardia [22] or with thyroid storm, psychosis and episodic acute respiratory failure [5] were reported.
The underlying mechanism of THPP is an acute extra to intracellular shift of potassium, mainly into the muscles, due to the stimulation of the activity of the Na-K-ATP-ase pump by thyroid hormones, via beta-adrenergic stimulation [3]. Genetic predisposition plays a role in the pathogenesis of thyrotoxic hypokalemic periodic paralysis; polymorphisms of the calcium channel alpha1subunit gene [24], mutations in SCN4A or CACNA1S [25] were reported. Up to 33% of THPP patients showed a mutation in Kir2.6 gene, regulated by thyroid hormones [26]. Single nucleotide polymorphisms of gamma-aminobutyric acid receptor alpha3 subunit were associated with THPP [27].
Treatment of THPP implies two steps: the hypokalemia correction and the euthyroidism restoring [4]. Both our patients initially received intravenous potassium chloride supplementation; correction of hypokalemia by potassium supplementation, in order to avoid fatal cardiac arrhythmias and to reverse muscle weakness is mandatory [28,3]. However, the patients do not have a total body deficiency of potassium, so aggressive potassium supplementation should be avoided, because it can result in rebound hypokalemia [29]. Potassium supplementation should be given as small as possible (<10 mmol/hr) [28]. Intravenous glucose solution should be avoided, because it could aggravate hypokalemia, leading to death [30].
The second step is the treatment with antithyroid drugs and beta-blockers. Nonselective beta-adrenergic blockers can ameliorate and prevent recurrence of the paralytic attacks. Both our cases received propranolol 120 mg/day and antithyroid drugs.
In both presented cases, no recurrence of the paralysis has been noted within the first 3 years after diagnosis. However, before achieving the euthyroid status, the rate of recurrent attacks could be up to 62.2% [17]. This episodic paralysis will remit with definitive control of hyperthyroidism [3]. Both our patients refused definitive surgical treatment of thyrotoxicosis and underwent regular thyroid followup.

Conclusion
Thyrotoxic hypokalemic periodic paralysis, although rare in Caucasian men, should be considered in the differential diagnosis of hypokalemic paralysis. Thyroid screening is mandatory in patients with muscular paralysis associated with hypokalemia.